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Financing Payouts * †
Joan Farre-Mensa Roni Michaely Harvard Business School Cornell University and IDC
Martin Schmalz University of Michigan
March 31, 2015
* We would like to thank Malcolm Baker, Alexander Ljungqvist, Uday Rajan, Matt Rhodes-Kropf, Jeffrey Zwiebel, and seminar audiences at Harvard Business School and the University of Michigan. Schmalz is grateful for generous financial support through an NTT Fellowship from the Mitsui Life Financial Center. † Address for correspondence: Harvard Business School, Rock 218, Soldiers Field, Boston, MA, 02163; phone 617-495-6963. E-mails: [email protected] (Farre-Mensa); [email protected] (Michaely); [email protected] (Schmalz).
Financing Payouts
Abstract
The established conventional wisdom is that payouts are first and foremost a vehicle to return
free cash flow to investors. In stark contrast, we find that 32% of aggregate payouts are
simultaneously raised in the capital markets by the same firms, mainly through debt but also
through equity. Conversely, issuers pay out 39% of the aggregate proceeds of net debt issues
and 19% of the proceeds of firm-initiated equity issues during the same year. Over 42% of
payout payers engage in such “payout financing” behavior, which is widespread among both
dividend-paying and repurchasing firms. The frequency, magnitude, and persistence of
financed payouts are unexpected, particularly in light of the obvious costs associated with this
behavior. Cross-sectional analyses suggest that firms use financed payouts to manage their
capital structure, monitor managers, engage in market timing, and boost earnings-per-share.
Key words: Payout policy, financing decisions, debt issues, equity issues, capital structure.
JEL classification: G35; G32.
1
The established conventional wisdom in the finance literature is that firms rely on free cash flow to
fund their payouts, whether these payouts are motivated by agency, signaling, or other
considerations. For example, Jensen (1986), Grullon, Michaely, and Swaminathan (2002), and
DeAngelo, DeAngelo, and Stulz (2006) present a lifecycle view of payouts where mature, cash-rich
firms distribute excess free cash flow to their investors while young, growing firms raise but do not
pay out capital. Ross, Westfield, and Jaffe (2013) conclude that “a firm should begin making
distributions when it generates sufficient internal cash flow to fund its investment needs now and into
the foreseeable future.” Accordingly, they recommend managers to set their level of payouts “low
enough to avoid expensive future external financing” (p. 607). While it is a theoretical possibility that
firms could also raise outside funds to finance their payouts, such behavior is costly and thus
considered, at least by some authors, “uneconomic as well as pointless” (Miller and Rock, 1985).
The results in this paper counter this conventional thinking. We find that 42% of industrial public
U.S. firms with positive payout initiate an equity or a net debt issue during the same year; the vast
majority of them, 36% of all payers, could not have funded their payout without the proceeds of these
issues, all else equal. In addition to being widespread, simultaneous payouts and security issues
(henceforth, “financed payouts”) are also substantial in dollar magnitude: 32% of the aggregate
capital paid out by public U.S. firms is raised by the same payers during the same year via net debt or
firm-initiated equity issues.1 If we include as a source of payout financing the proceeds of equity
issues initiated via employee stock option exercises, the percentage of financed payouts increases by
nine percentage points: 41% of the aggregate capital paid out by public firms is simultaneously raised
by the same payers either actively from the capital markets or passively from their employees.
Critically, firms’ reliance on the capital markets to finance their payouts is not a transitory
phenomenon: The gap between firms’ payouts and their internally generated funds persists if we
aggregate firms’ sources and uses of cash flows over four-year intervals. This finding indicates that
1 Much of the proceeds of gross debt issues are used to roll over prior debt. Our conservative focus on net debt issues (defined as debt issues net of debt repurchases if this difference is positive, and zero otherwise) allows us to capture those proceeds that firms can use to fund investment, cash flow shortfalls, or—as it turns outs—payouts.
2
the use of external capital to finance payouts is persistent and is not the result of payout smoothing
or, more generally, of timing mismatches between free cash flow and payouts.
The frequency, magnitude, and persistence of financed payouts are unexpected, particularly in
light of the obvious costs associated with this behavior. In addition to underwriting and other direct
issuance expenses, these costs include asymmetric information discounts on newly issued securities
(Myers and Majluf, 1984) and the possibility that profitable investment opportunities are passed up
as a result of prioritizing payouts over investment (Asker, Farre-Mensa, and Ljungqvist, 2015). Most
firms that finance their payouts do not have an investment-grade credit rating or are in the top public-
firm size quartile, which suggests that the cost of financing payouts can be substantial for them.
The fact that some 40% of all payers finance their payouts implies that there must be benefits that
offset the previous costs. In order to explore what these benefits are, we first examine the form of
payouts that firms finance. We find that firms are as likely to finance their dividends as their share
repurchases. Thus, actively financed payouts cannot simply be explained by firms’ desire to avoid
the well-known costs associated with dividend cuts (e.g., Healy and Palepu, 1988).
We next examine the extent to which firms choose debt or equity issues to finance their payouts.
This choice has direct capital structure implications, and thus it points to different motives for why
firms raise and pay out capital at the same time. Our analysis shows that net debt is by far the most
important source of payout financing: up to 30% of aggregate payouts are financed via simultaneous
net debt issues. Conversely, 39% of the proceeds of net debt issues— $135 billion of the $350 billion
of net debt issued by public U.S. firms in the average sample year—are paid out during the same year
by the same issuers. Given that SEOs and private placements are relatively rare, it is not surprising
that only 3% of aggregate payouts are financed via firm-initiated equity issues. Yet, when firms do
initiate equity issues, they pay out a striking 19% of the proceeds during the same year. This ‘equity
recycling’ behavior indicates that capital structure adjustments are an important but not the only
reason why firms simultaneously pay out and raise capital.
3
To shed further light on the motives behind financed payouts, we analyze the characteristics of
firms that finance their payouts in the capital markets. The results of this cross-sectional analysis
point to four (non-mutually exclusive) key drivers of financed payouts, depending on the type of
payout that is financed and the financing source. First, financing payouts allows firms to jointly
manage their capital structure and cash holdings in a way that cannot be replicated by relying only on
either payouts or security issues. Our findings that firms with high cash levels are less likely to
finance their payouts, while highly leveraged firms are less likely to finance them with debt and more
likely to do so with equity, underscore the importance of capital structure and cash considerations to
the decision to finance payouts.
Second, as suggested by Easterbrook (1984), financed payouts can be the result of a monitoring
strategy that has firms setting a payout level that they can fund internally when investment is routine
but that leads them to raise and simultaneously pay out capital when pursuing new projects.
Consistent with this explanation, we find that 40% of firms that cannot fund their payouts internally
have unusually high levels of investment. Firms without a strong institutional investor presence that
can monitor managers in ‘real time’ appear most prone to relying on the capital markets to decide
whether new projects should be funded.
In addition, we find that equity-financed repurchases are most prevalent among firms with high
idiosyncratic volatility of stock returns, which have more opportunities to engage in market timing.
At the same time, the desire to increase earnings-per-share appears to be an important driver of debt-
financed repurchases, particularly in industries where short-termist pressures to meet or beat
analysts’ forecasts are higher. By contrast, we find little support for the notion that signaling
considerations are a first-order driver of financed payouts. Indeed, financed payouts play no role in
signaling models of the class of Miller and Rock (1985). Other signaling models, like Bhattacharya
(1979), do predict that firms hit by a negative profitability shock will finance their payouts rather
than cut them; however, our analysis shows that the vast majority of firms with a gap between their
payouts and their internal funds do not have unusually low profitability.
4
Our paper makes three contributions. First, ours is the first paper to systematically analyze how
firms fund their payouts. The vast literature on payout policy has investigated in detail the
determinants of the form of payouts (dividends or repurchases), their motivations, and the effect that
payout decisions have on equity returns. (See Allen and Michaely (2003), DeAngelo, DeAngelo, and
Skinner (2008), and Farre-Mensa, Michaely, and Schmalz (2014) for recent reviews.) Yet despite the
obvious interest in payouts, no paper to date has fully analyzed how payouts are actually funded,
perhaps because the answer might have appeared just too obvious: payouts are funded with free cash
flow—at least over long enough time periods.
In fact, we find that firms rely on the capital markets to finance 32% of aggregate payouts, with
another 9% of paid-out capital provided by employees through stock option exercises. Several
studies have shown that some firms occasionally raise external funds to finance large payouts (e.g.,
Denis and Denis (1993) investigate 39 proposed leveraged recapitalizations, and Wruck (1994)
examines Sealed Air Corporation’s leveraged special dividend). In addition, Grullon et al. (2011)
have pointed out that a non-trivial fraction of firms simultaneously raise and pay out equity.
However, the pervasiveness and economic magnitude of financed payouts we find in the data have
not been documented previously and are unexpected.
Second, the high frequency and large magnitude of externally financed payouts have implications
for our understanding of the motives behind firms’ payout policies. By simultaneously raising and
paying out capital, firms can accomplish a number of objectives, such as jointly managing their
capital structure and cash holdings, monitoring managers’ investment decisions, engaging in market
timing, or increasing earnings-per-share. More generally, a key insight of our paper is that payout
and issuance decisions are often closely related, and thus much can be gained by studying them
jointly as interdependent elements of the financial ecosystem.
Third, our paper enhances our understanding of what firms do with the proceeds of security
issues. As it turns out, in addition to using these proceeds to fund investment, cover cash flow
shortfalls, or build up their cash reserves (e.g., Kim and Weisbach, 2008; Denis and McKeon, 2012),
5
a staggering 34% of the capital firms raise in the capital markets is paid out by the same firms during
the same year.
The paper proceeds as follows. Section 1 provides aggregate statistics on payout and capital
raising activity. Section 2 examines simultaneous payouts and security issues at the firm level.
Section 3 investigates whether firms that simultaneously raise and pay out capital could have funded
their payouts without raising capital, all else equal. Section 4 examines the cross-sectional
characteristics of firms that engage in payout financing to shed light on the motives behind this
behavior. Section 5 concludes.
1. Aggregate Payout and Capital Raising Activity
1.1 Sample selection
Our sample consists of all public U.S. firms that appear in the Compustat-CRSP merged files
from 1989 to 2012.2 We exclude firms in the year of their IPO to avoid capturing the IPO proceeds in
our analyses. As is customary, we also exclude financial firms (SIC 6) and utilities (SIC 49). The
final sample consists of 10,591 unique firms and 90,791 firm-year observations.
1.2 Aggregate payout and capital raising activity
We start by describing the aggregate payout and capital raising activities of industrial public U.S.
firms during our sample period. Table 1 shows the annual percentage of firms that pay out or raise
capital (Panel A) and the aggregate dollar amount paid out or raised (Panel B).3 In Table 1 and all
other tables in the paper, we report annual figures averaged over four-year intervals to conserve
space. To better visualize time trends, Figures 1 and 2 show the underlying annual figures that we
have averaged in Table 1. Importantly, in Table 1 and Figures 1 and 2 there is no link at the firm
level between payouts and security issues, as capital may be paid out and raised by different firms.
2 The sample starts in 1989 because this is the first full year for which data from the Statement of Cash Flow were standardized following the adoption of Statement of Financial Accounting Standard 95. 3 All dollar figures reported in the paper are in real dollars of year 2012 purchasing power.
6
Several trends emerge from this analysis. Both the percentage of firms with positive total payout
(the sum of dividends and share repurchases) and the dollar amount paid out have experienced a
substantial increase over our sample period. This increase has largely been driven by repurchases,
which have been the most important payout vehicle since 1997 (with the only exception of 2009).
Dividends, on the other hand, have experienced a different dynamic: As noted by Fama and French
(2001), the number of dividend payers declined through the 1990s and reached a low-point in 2001,
when less than a quarter of all public U.S. firms paid a dividend, but have made a remarkable
comeback since then.4
At the same time, the aggregate dollar amount paid out through dividends stayed relatively flat
during the 1990s—reflecting the fact that the firms that stopped paying dividends accounted for a
relative small fraction of aggregate dividend payments (DeAngelo, DeAngelo, and Skinner, 2004)—
and has been slowly but steadily increasing since 2001. Figure 1 shows that repurchases have been
much more volatile and procyclical than dividends throughout our sample, which is consistent with
the well-known tendency of firms to smooth dividends (e.g., Jagannathan, Stephens, and Weisbach,
2000; Leary and Michaely, 2011).
On the security issuance side, net debt issues, defined as the difference between the amount of
debt issued and the amount retired if this difference is positive, and zero otherwise, have been by far
the most important source of external funds for U.S. firms. In the average year in our sample period,
U.S. firms raise $255 billion in net debt, representing over 70% of the capital they raise that year.
Figure 2 shows that the aggregate dollar amount raised via net debt issues has been trending upwards
and mostly procyclical, though it was slow to recover after the 2001 recession, when it continued
declining through 2005. The figure also shows that between 20% and 45% of all firms issue net debt
in any given year, a percentage that is also highly procyclical.
4 Farre-Mensa, Michaely, and Schmalz (2014) review the recent payout literature and, in particular, papers that have examined the forces behind this ‘disappearance and reappearance’ of dividends.
7
In addition to issuing debt, firms can raise capital by issuing equity. We break down equity issues
in firm-initiated issues (SEOs and private placements) and employee-initiated issues, mostly via
stock options exercises (McKeon, 2015). There is an important conceptual difference between a firm
that chooses to raise capital by initiating a debt or an equity issue, and a firm that raises capital as a
by-product of its employees’ option exercises, over which the firm has little direct control.5
Throughout the paper, we therefore distinguish between instances in which firms actively raise
capital by initiating a net debt or an equity issue, and instances in which the capital-raising events are
triggered by the firms’ employees.6
Figure 2 shows that employee-initiated issues have become increasingly prevalent over the last
three decades: Every year since 1997, over 60% of all public firms have received a cash inflow from
employee stock option exercises. These exercises have become an important—though perhaps
unintended—source of capital for public U.S. firms, with the aggregate annual proceeds of
employee-initiated equity issues peaking at $100 billion in 2007. Firm-initiated equity issues, on the
other hand, are less common: During our sample period, each year only between 10% and 20% of all
public firms have initiated an equity issue. The annual proceeds of firm-initiated equity issues have
averaged $45 billion during our sample, reaching a peak of $123 billion in 2000.
To sum up, Table 1 and Figures 1 and 2 show that aggregate payout and capital raising activities
are both procyclical and have trended upwards over our sample period. In addition, their aggregate
dollar magnitudes are very similar: on average, public U.S. firms pay out and raise $354 billion and
$350 billion each year, respectively. However, it is important to emphasize that the aggregate
statistics presented so far do not imply that payouts and issuances are in any way related at the firm
level. Indeed, it could be that firms that pay out and those that raise capital are different firms that are
5 Firms do control if and when they issue options, but arguably this decision is motivated by the need to incentivize employees and typically takes place several years before the options are exercised. 6 Following McKeon (2015), we identify a firm as having initiated an equity issue during a quarter if the ratio of the equity raised during that quarter to end-of-period market equity is above 3%. Otherwise, the issue is classified as employee-initiated.
8
at different stages of their life cycles, as predicted by standard lifecycle theories (e.g., Grullon et al.,
2002; DeAngelo et al., 2006). The next section examines the extent to which this is the case.
2. Simultaneous Payouts and Security Issues
In this section, we investigate how common it is for the same firms to pay out and raise capital
simultaneously, i.e., during the same fiscal year. In doing so, we examine joint payout and issuance
decisions at the firm level, in contrast to the aggregate statistics presented in Section 1.
Section 2.1 first examines the prevalence of firms that pay out capital and issue any type of
security during the same year, as well as the economic magnitude of these simultaneous payouts and
issues. We then analyze how our findings change if we focus only on actively issued securities, i.e.,
instances in which firms initiate a debt or an equity issue, thus excluding equity issues that are the
result of employee stock options exercises. Section 2.2 further disaggregates the securities that are
issued simultaneously with payouts into net debt issues, firm-initiated equity issues, and employee-
initiated equity issues.
2.1 All security issues vs. firm-initiated security issues
Columns 1, 2, and 3 in Table 2, Panel A report the number of firms that pay out and raise capital
during the same year, presented as a fraction of the whole population of public firms (column 1), the
population of firms that pay out capital (column 2), and the population of firms that raise capital
(column 3). The takeaway from these three columns is clear: A substantial number of firms raise and
pay out capital during the same year.7 Specifically, column 1 shows that, in our average sample year,
40% of all public U.S. firms paid out and raised capital during the same fiscal year. This percentage
has been growing over time, peaking in 2012 at 52%. Column 2 conditions the sample on firms that
pay out capital, showing that 82% of payers raise capital in the same year. Analogously, column 3
conditions the sample on firms that issue securities, showing that over 50% of security issuers
simultaneously pay out capital.
7 All firm counts we report throughout the paper require variables to be greater than $100,000 to be considered positive. In this section, this ensures that we identify firms that pay out and raise economically meaningful amounts of capital.
9
Taken at face value, these findings may be viewed as surprising: Insofar as information
asymmetries cause a wedge between firms’ external and internal costs of capital, leading firms to
follow a financial ‘pecking order’ (Myers and Majluf, 1984), we would expect firms that need capital
to cut their payouts before issuing any securities. In what follows, our goal is to better understand
why so many firms simultaneously raise and pay out capital, despite the obvious costs associated
with such a policy of “financing payouts.”
We start by analyzing the degree to which our findings are driven by employee-initiated equity
issues. Recall from Table 1 that, in the later years of our sample, over two-thirds of all public firms
experience such an issue, and thus it is all but unavoidable that many payout payers will
simultaneously raise capital. In fact, to the extent that the proceeds of employee-initiated issues can
be seen as excess free cash flow that firms do not actively seek to raise and may not need, it is only
natural that firms pay these proceeds back to their investors.
Table 2, Panel B excludes employee-initiated equity issues from our analysis and focuses only on
payout payers that initiate security issues in the same year—in short, the panel focuses only on firms
that “actively finance” their payouts. Column 1 shows that, in the average sample year, 20% of all
public firms simultaneously pay out and raise capital by initiating a net debt or an equity issue. This
means that an average of 42% of all payers actively raise capital during the same year (column 2);
conversely, 46% of all firms that actively raise capital also pay out capital during the same year
(column 3). Thus, a comparison of Panels A and B indicates that employee-initiated equity issues
make up just under a half of the instances of firms that simultaneously pay out and raise capital.
Figure 3 (top graph) illustrates that actively financed payouts are highly procyclical: The
percentage of payout payers that actively raise capital in the same year fell from a peak of 53% in
1998 to 29% in 2002, in the aftermath of the 2001 recession; it then fell again during the Great
Recession, from 42% in 2007 to 24% in 2009, before bouncing back to 40% in 2012. Therefore, it is
in expansionary years, when capital is arguably easiest to raise, that firms choose to actively issue
securities and simultaneously pay out (part of) the proceeds.
10
Dollar magnitudes
A natural question follows: Are simultaneous payouts and security issues economically
important? Columns 4 through 9 of Table 2 investigate this question. Specifically, Panel A examines
the dollar amounts that firms simultaneously raise and pay out during the same fiscal year, measured
as follows: For each firm-year, we calculate the minimum of the proceeds of its security issues (net
debt issues plus equity issues, denoted SIit) and its total payout (TPit): min{SIit, TPit}.
To get a sense of how large simultaneous payouts and security issues are relative to aggregate
payouts and to aggregate security issues, we construct the following two ratios for each year in our
sample period: min , /t t
TPt it it it
i Pub i Pub
R SI TP TP
and min , / ,t t
SIt it it it
i Pub i Pub
R SI TP SI
where
Pubt denotes the set of all public firms in year t. Therefore, TPtR captures the fraction of aggregate
total payouts that is simultaneously raised through securities issued by the same payers during the
same year, while SItR captures the fraction of aggregate security issue proceeds that is paid out by the
same issuers during the same year.8
Column 4 in Table 2, Panel A shows that, on average over our sample period, 41% of the
aggregate capital paid out by public U.S. firms was raised during the same year by the same payers.
This fraction has decreased somewhat in recent years, indicating that simultaneous payouts and
security issues have not kept pace with the payout explosion captured in Figure 1. This is despite the
fact that column 5 shows that the fraction of aggregate security issue proceeds that are
simultaneously paid out has been growing over time, averaging 39% over our sample and reaching
57% in 2011.
Columns 4 and 5 in Panel B show that the large dollar magnitude of simultaneous payouts and
security issues is not the result of firms paying out the proceeds of employee stock options exercises.
Columns 4 and 5 in Panel B show the analogous versions of the TPtR and SI
tR ratios with SI
8 Alternatively, each year we could construct the ratio min{SIit , TPit}/ TPit for each payout payer and then average this ratio across all payers (and analogously with the ratio min{SIit , TPit}/ SIit for security issuers). Doing this yields similar patterns to those we report using TP
tR and ,SItR respectively.
11
substituted by AI, where AI includes only capital actively raised through either net debt issues or
firm-initiated equity issues. Remarkably, we still find that, on average over our sample period, close
to a third (32%) of the aggregate capital paid out by public U.S. firms is financed through firm-
initiated security issues during the same year. The results in column 5 are equally if not more
surprising: A staggering 34% of the aggregate proceeds of firm-initiated issues are paid out by the
same firms during the same fiscal year, a ratio that has increased markedly since 2003. The bottom
graph in Figure 3 shows that simultaneous payouts and firm-initiated security issues are strongly
procyclical, with the aggregate annual amount of simultaneous payouts and active issues,
min ,t
it iti Pub
AI TP , peaking in 2007 at $227 billion.
Taken together, our findings paint a very different picture from the common view that firms that
(actively) raise capital and those that pay out capital are different firms that are at different stages of
their lifecycles and face different growth opportunities (e.g., Grullon, Michaely, and Swaminathan,
2002; DeAngelo, DeAngelo, and Stulz, 2004). Rather, our results indicate that, on average over our
sample period, over 82% of firms that pay out capital also issue securities in the same year they pay
out. Even if we focus only on firm-initiated security issues, this ratio remains as high as 42%.
Perhaps even more remarkable, the amount of capital that is actively raised and paid out by these
firms represents 32% of aggregate total payouts; conversely, 34% of the proceeds of security issues
initiated by public U.S. firms are paid out during the same year.
Dividends vs. repurchases
We next investigate the extent to which these findings are driven by dividends or share
repurchases. In particular, given that it is costlier to cut dividends than repurchases (e.g., Brav et al.,
2005), firms might be more included to maintain dividend payments, even if doing so requires raising
capital. If this is the case, dividends that are financed through security issues should be more
prevalent than financed repurchases. To this end, columns 6 and 7 in Table 2 show the same analysis
12
as columns 4 and 5 but substituting total payout (TP) with dividend payout (Div); similarly, columns
8 and 9 substitute total payout with capital paid out via share repurchases (Rep).
The results in Panel A indicate that firms pay out the proceeds of security issues via dividends
and share repurchases to almost the same extent (23% and 24%, respectively).9 When we restrict the
sample to firm-initiated security issues (Panel B), we find analogous results: 21% of the proceeds of
firm-initiated security issues are paid out via dividends and also 21% via repurchases. If anything, a
comparison of columns 7 and 9 indicates that in recent years, a larger share of the proceeds of firm-
initiated issues has been paid out via share repurchases than via dividends. To the extent that
repurchases are typically seen as less sticky than dividends, maintaining repurchase levels is unlikely
to be the motivation for such financed repurchases.
A similar pattern emerges if we examine firm counts instead of dollar magnitudes: In untabulated
findings, we find that in the average year in our sample period, 45% of dividend payers and 41% of
repurchasers initiate an equity or a net debt issue during the same year. (In recent years, the
difference between the two ratios has all but disappeared.)
2.2 Breaking down the role of debt and equity issues
Our findings so far show that simultaneous payouts and security issues represent a large fraction
of both payout and capital raising activities. The motivations behind these findings may critically
depend on the type of security issues. For example, as we discuss in Section 4, whether firms finance
their payouts via equity or debt issues has very different capital structure implications, and thus
points to different motives for why firms raise and pay out capital at the same time. This section
breaks down the role that debt and equity issues play in driving our findings.
Table 3 examines the extent to which firms simultaneously pay out capital and issue net debt
(Panel A), firm-initiated equity (Panel B), and employee-initiated equity (Panel C), following the
same structure as Table 2. Three results stand out. First, debt appears to be the dominant form of
9 The sum of columns 7 and 9 does not equal column 5. To illustrate why, consider the case of a firm that raises $80 of debt, pays out $50 in dividends and another $50 via share repurchases. For this firm, min{SI, TP} = $80 < min{SI, Div} + min{SI, Rep} = $50 + $50 = $100.
13
payout financing: Column 4 indicates that, in our average sample year, 30% of aggregate payouts are
financed via simultaneous net debt issues (Panel A), while firm- and employee-initiated equity issues
finance 3% (Panel B) and 11% (Panel C) of aggregate payouts, respectively. Columns 6 and 8 show
that debt dominates the financing of both dividends and share repurchases.
Second, when examining firm counts, a somewhat different picture emerges: column 1 shows
that the percentage of public firms with a simultaneous payout and net debt issue is a substantial 18%
(Panel A). That said, this fraction is smaller than the 34% of firms with a simultaneous payout and
employee-initiated equity issue (Panel C), reflecting the large prevalence of firms with capital
inflows from employee stock option exercises. On the other hand, simultaneous payouts and firm-
initiated equity issues are rare: less than 4% of all public firms initiate equity issues and pay out
capital during the same year (Panel B).10
Third, relative to the total amount of capital firms raise, column 5 shows that a remarkable 39%
of the proceeds of net debt issues are paid out during the same year by the same issuers (Panel A);
this represents $135 billion of the $350 billion of net debt raised by public U.S. firms in our average
sample year. Panel B shows that an equally remarkable 19% of firm-initiated equity issuance
proceeds are also paid out. Therefore, while the fact that SEOs and private placements are relatively
rare implies that they finance only a small fraction of aggregate payouts, when firms do actively raise
equity they pay out almost a fifth of the proceeds during the same year.
As for employee-initiated equity issues, as many as 79% of these proceeds are paid out (Panel C).
This finding is consistent with the notion that the cash inflows from option exercises often represent
unneeded capital that is a by-product of firms’ compensation policies, and so it is not surprising that
firms pay the cash back to their shareholders. At the same time, it is worth emphasizing that our
results imply that firms use employees as a source of capital to finance a non-trivial fraction of their
payouts.
10 The fact that some firms simultaneously raise and pay out equity has been previously noted by Weld (2008) and Grullon et al. (2011).
14
3. The Gap Between Payouts and Free Cash Flow
Section 2 shows that simultaneous payouts and security issues are widespread, representing a
large fraction of the dollar amounts that firms pay out and that they raise. But to what extent are the
decisions to raise and pay out capital related? In order to shed light on this question, in this section
we examine whether firms conducting simultaneous payouts and security issues could have funded
their payouts without the proceeds of these issues.
3.1 Prevalence and magnitude of payout-funding gaps
In order to identify firms that would have been unable to fund their payouts without
simultaneously raising capital, all else equal, we need to measure the gap between a firm’s payout
and its free cash flow. To define this gap, it is helpful to consider the following cash flow identity,
which expresses a firm i’s total payout in year t in terms of the firm’s potential sources and uses of
cash:
Total payout (TPit) = Free cash flow (FCFit) – Change in cash (CCit) + Security issues (SIit) (1)
Free cash flow (FCFit) is the sum of operating cash flow (OCFit) and investment cash flow (ICFit).11
As in Section 2, total payout (TPit) is the sum of dividends and share repurchases, while security
issues (SIit) is the sum of the proceeds of net debt and equity issues. In addition, we also define a
firm’s (positive) cash flow from cash reduction (CRit) as minus its change in cash holdings if the
change in cash is negative, and zero otherwise (i.e., CRit = – min{CCit, 0} ≥ 0).
It then immediately follows from equation (1) that whenever a firm’s total payout exceeds the
sum of its free cash flow and cash reduction (i.e., TPit > FCFit + CRit), the firm needs to issue
securities to finance (part of) its payout (i.e., SIit > 0). We label such a firm as having a payout-
funding gap, and define its payout gap as follows:
Payout gap (PGit) ≡ min{max{TPit – (FCFit + CRit), 0}, TPit} (2)
11 The two main components of investment cash flow are capital expenditures and acquisitions, both of which enter the definition of investment cash flow with a negative sign as they represent capital outlays.
15
To illustrate our definition of payout gap, consider the following three situations. First, for a firm
that pays out $50, has free cash flow of $25, and has no changes in cash, the payout gap is $25.
Second, for a firm that pays out $50, has negative free cash flow of −$100, and has no changes in
cash, the payout gap is $50. That is, our definition ensures that a firm’s payout gap is never larger
than the payout itself, even if free cash flow is negative.
Lastly, consider a firm that pays out $50, has free cash flow of $50, and issues $100 worth of net
debt, which it uses to build up its cash reserves (i.e., SIit = CCit = $100). This firm pays out and raises
capital during the same year, and hence was captured as such in Section 2 (min{TPit, SIit} = $50). By
contrast, according to the payout gap definition introduced above, this firm does not have a gap
because its free cash flow is sufficient to fund its payout (PGit = min{max{50 – (100 + 0), 0}, 50}=
$0). This last example illustrates the complementary nature of our analyses in Sections 2 and 3.
The first four columns of Table 4, Panel A examine the prevalence of firms with a payout gap
and the dollar magnitude of their gaps. Columns 1 and 2 show that, in our average sample year, 22%
of all public firms—representing 46% of all firms that pay out capital—have a payout-funding gap.12
Column 3 shows that, across firms with a payout gap, the ratio of the payout gap to total payout,
PGit / TPit, averages 73%; thus, conditional on having a gap, payout gaps are large.
Importantly, the magnitude of payout gaps is also substantial at the aggregate level: Column 4
shows that the ratio of the aggregate sum of payout gaps to the aggregate capital paid out by all
public firms that year, /t t
it iti Pub i Pub
PG TP , is 30% in our average sample year. That is, in our
average sample year, $98 billion or 30% of the total capital paid out by public U.S. firms could not
have been funded without the proceeds of security issues, all else equal.
How do our findings change if we examine only payouts that could not have been funded without
the proceeds of firm-initiated security issues? To investigate this, columns 5 through 8 in Table 4,
12 Analogously as in the previous tables, we require PGit > $100,000 to classify a firm as having a payout gap.
16
Panel A perform an analysis analogous to that in columns 1 through 4 but focusing on what we call
active payout gaps, which we define as follows:
Active payout gap (APGit) ≡ min{max{TPit – (FCFit + CRit + EEit), 0}, TPit} (3)
where EEit captures the proceeds of employee-initiated equity issues and all other variables are as in
equation (2). By adding the proceeds of employee-initiated issues to firms’ internal funds, we are
able to identify firms that need to initiate security issues to close their payout gaps, all else equal.13
Columns 5 and 6 show that a remarkable 36% of all payers—or 17% of all public firms— set a
payout level that requires them to initiate a debt or an equity issue to finance it, all else equal.
Column 8 shows that the aggregate magnitude of active payout gaps represents 26% of the aggregate
capital paid out by public U.S. firms in our average sample year.
To better visualize time trends, Figure 4 shows the percentage of public firms and payout payers
with an active payout gap (top figure), as well as the aggregate dollar magnitude of these gaps
(bottom figure). The figure shows that active gaps are highly procyclical, declining markedly around
the three recessionary periods in our sample: the early 1990s recession, the early 2000s recession,
and the Great Recession. This suggests that in recessionary years, when it is hardest and costliest to
raise capital (e.g., Campello, Graham, and Harvey, 2010; Erel et al., 2012), firms are reluctant to set
payout levels that they need to finance by initiating security issues. Yet they seem to have few
concerns doing so while the economy is (still) growing: In 2007, right before the onset of the Great
Recession, close to 40% of all payers had active payout gaps; these firms raised a combined $190
billion through firm-initiated issues to close their gaps.
Summary
Table 5 combines our key findings from Tables 2 and 4 to provide a succinct summary of the
extent to which firms that simultaneously raise and pay out capital could have funded their payouts
13 Indeed, it follows from equation (1) that whenever TPit > FCFit + CRit + EEit, then AIit > 0 (where as in Section 2, AIit captures capital that is actively raised through either net debt or firm-initiated equity issues).
17
by relying only on their internal funds, all else equal. The first row treats the proceeds of employee-
initiated equity issues as external capital, while the second row adds them to internal funds.
Even by our most conservative standard that treats the proceeds of employee-initiated issues as
internal funds, as many as 42% of all payers simultaneously pay out capital and initiate security
issues; most of them, 36% of all payers, could not have funded their payouts without the proceeds of
these issues, all else equal. In terms of dollar magnitudes, the capital that firms simultaneously pay
out and raise in the capital markets represents 32% of aggregate total payouts; in fact, as many as
26% of aggregate payouts could not have been funded without raising external capital, all else equal.
Similarly, Figure 5 combines Figures 3 and 4 to jointly visualize the time trends in the percentage
of payers with actively financed payouts and with active payout gaps (top figure), as well as in the
dollar magnitude of their financed payouts and active gaps (bottom figure). The figure highlights the
procyclicality of both actively financed payouts and active gaps, consistent with our prior
interpretation that it is primarily in expansionary years when firms set payout levels that they finance
by actively raising capital. This finding is consistent with the evidence in Bliss, Cheng, and Denis
(2014), who show that exogenous shocks to the supply of credit lead firms to reduce their payouts as
a substitute form of financing. Indeed, our results show that reducing payouts allows firms not just to
conserve internal funds, but also to reduce their external capital needs.
3.2 Are payout gaps the result of timing mismatches between free cash flow and payouts?
The large prevalence and dollar magnitude of payout gaps raise an important question: Are these
gaps the result of timing mismatches between free cash flow and payouts? This concern is
particularly relevant given that it has long been known that firms tend to smooth their payouts
relative to their free cash flow (Lintner, 1956). In particular, if firms set their payout level equal to
their average free cash flow, our analysis could identify a payout gap every year that a firm has
below-average free cash flow (say, once every two years). Crucially, if timing mismatches were
driving payout gaps, the gaps should all but disappear if we measure firms’ sources and uses of cash
over longer horizons.
18
In order to investigate whether payout gaps are the result of timing mismatches, Table 4, Panel B
reports the same analysis as Panel A but with payout gaps defined over four-year intervals:
3 3 3
3
0 0 0
min max ,0 ,tit it j it j it j it j
j j j
PG TP FCF CR TP
(4)
and analogously for active payout gaps. Interestingly, both payout gaps and active payout gaps are
somewhat more prevalent and of similar magnitude when we define them over four-year intervals in
Panel B than when we define them annually in Panel A.14 Therefore, payout gaps are persistent and
we find no support for the notion that they are the result of timing mismatches between free cash
flow and payouts.
4. Why Do Firms Finance Payouts?
The frequency, magnitude, and persistence of actively financed payouts we find in the data run
counter to the commonly held view in the literature that payouts are first and foremost a vehicle to
return free cash flow to investors (as reflected, e.g., in Grullon, Michaely, and Swaminathan (2002)
or DeAngelo, DeAngelo, and Stulz (2006)). Our goal in this section is to shed further light on the
motives driving this unexpected behavior by analyzing the characteristics of those firms that are
more prone to financing their payouts in the capital markets.15 Our analysis is eminently descriptive,
and so we stop well short of making any causal claims.
We first establish a benchmark for actively financed payouts by examining the characteristics of
payout payers in general, whether or not their payouts are financed. Table 6 shows the results of a
tobit model in which the dependent variable is the capital a firm pays out in the form of dividends
14 This finding, which is robust to defining gaps over intervals longer than four years, is in fact not surprising. Indeed, firms that smooth their payouts relative to their free cash flow are expected to use their cash holdings to do so. Our baseline definitions of payout gap and active payout gap add cash reductions to free cash flow (see equations (2) and (3)), and so they do not identify firms performing such intertemporal smoothing as having payout gaps. 15 Our discussion in this section focuses only on firms that actively finance their payouts by simultaneously paying out capital and initiating debt or equity issues. That said, recall that an additional 9% of aggregate payouts is (passively) financed through simultaneous employee-initiated equity issues.
19
(columns 1 and 2) or share repurchases (columns 3 and 4), scaled by the market value of the firm’s
equity (columns 1 and 3) or by its assets (columns 2 and 4).16
Consistent with the prior literature (e.g., Dittmar, 2000; Grinstein and Michaely, 2005), we find
that higher payouts (whether dividends or share repurchases) are associated with firms that are more
profitable (i.e., have higher operating cash flow); invest less; are larger and more likely to have an
investment-grade credit rating; and have lower excess leverage (where excess leverage is defined as
the difference between a firm’s leverage and the leverage of the median firm in its industry). The
correlation between excess cash (the difference between a firm’s cash-to-assets ratio and that of the
median firm in its industry) and dividends is weakly negative, while it is strongly positive for share
repurchases; a firm’s share of institutional ownership is also associated with lower dividends but
higher repurchases.
Firms whose stock returns are subject to high idiosyncratic volatility and thus that have higher
demand for precautionary cash (Warusawitharana and Whited, 2014) pay out less. On the other hand,
firms in industries where stock prices are highly sensitive to earnings news, as captured by their
earnings response coefficient (ERC), pay higher dividends; this finding is consistent with the notion
that public firms in high ERC industries are subject to more short-termist pressures, which lead them
to prioritize dividends over investment (Asker, Farre-Mensa, and Ljungqvist, 2015).
Our next step is to examine the characteristics of firms that finance their payouts by
simultaneously initiating debt or equity issues. For those firms that pay dividends or repurchase
shares, Table 7 reports the results of estimating a generalized linear model in which the dependent
variable is the fraction of dividends or share repurchases that is financed via net debt issues or firm-
initiated equity issues.
Specifically, the dependent variable in column 1 is min{Net debt issuesit, Dividendsit}/
Dividendsit. For a firm that pays dividends and does not simultaneously issue net debt, this fraction
16 Table 6 reports the coefficient estimates of the tobit model, which capture the marginal effect of each independent variable on the non-truncated latent dependent variable.
20
equals 0; it equals 1 for a firm that raises at least as much capital via net debt issues as it pays out via
dividends; and it is a fraction in (0,1) for a firm whose net debt issues raise a fraction of the capital it
pays out via dividends. Analogously, the dependent variable in column 2 is min{Net debt issuesit,
Repurchasesit}/ Repurchasesit, while in columns 3 and 4 it is min{Firm-initiated equity issuesit, Pit}/
Pit, where Pit denotes dividends or share repurchases. For ease of interpretation, Table 7 reports
conditional marginal effects evaluated at the means of the independent variables, with the choice of
independent variables the same as in Table 6.17 We next describe these results in detail.
4.1 Financed payouts, profitability, and investment
Recall from Table 4 that the vast majority of firms that finance their payouts by simultaneously
raising debt or equity do not generate enough free cash flow to fund their payouts. Consistent with
the notion that the fact that these firms’ free cash flow is insufficient to fund their desired payout
level helps explain why they simultaneously raise capital, Table 7 shows that highly profitable firms
are less likely to finance their dividends or repurchases by raising debt or equity. At the same time,
firms with high investment (and thus low free cash flow) are more likely to finance both their
dividends and their repurchases by issuing net debt and initiating equity issues. To illustrate, column
1 shows that, for the average dividend payer, a marginal increase of one percentage point in the
operating cash flow-to-assets ratio is associated with a 1.6 percentage point decrease in the fraction
of the firm’s dividend financed by debt. (The interpretation of the other coefficients is analogous.)
The fact that firms with lower operating cash flow and higher investment are more prone to
actively financing their payouts raises an important question: To what extent are financed payouts the
result of firms that decide to maintain their payouts in the face of transitory shocks to their profits or
investment? To shed light on this question, in Tables 8 and 9 we construct counterfactual payout
gaps using firms’ expected profits and expected investment, respectively, and compare them to the
17 Given that the dependent variable is a fraction that includes zeros and ones, we follow Papke and Wooldridge (1996) and estimate a generalized linear model using the logit link function and the binomial distribution family.
21
firms’ actual gaps based on the firms’ actual profits and investment. We next briefly describe these
two tables before continuing our discussion of Table 7.
Table 8 analyzes counterfactual active payout gaps when we assume that no firm is less
profitable than the median firm in its industry (columns 1 and 2) or than it was in the previous year
(columns 3 and 4). For ease of comparison, columns 5 and 6 reproduce the actual active gaps
reported in Table 4, Panel A. A comparison of columns 1 and 5 in Table 8, Panel A reveals that 79%
(=28.6/36.1) of payers with an active payout gap would still have a gap if they had been at least as
profitable as the median firm in their industry.18 Comparing columns 2 and 6, we see that the
aggregate dollar magnitude of such counterfactual gaps is 92% of the aggregate magnitude of actual
gaps. We find similar results in columns 3 and 4, where we assume that all firms are at least as
profitable as they were in the previous year. Therefore, the vast majority of active payout gaps are
not the result of transitory profitability shocks.
Panel B in Table 8 breaks downs the role that dividends and share repurchases play in driving the
actual and counterfactual payout gaps identified in Panel A. To do this, we define a firm’s active
dividend gap similarly as we define its active payout gap, substituting the firm’s total payout in
equation (3) by its dividend payout. This definition identifies those firms for which the sum of their
free cash flow, cash reduction, and employee-initiated equity issues is not enough to fund their
dividend, and thus they have to actively raise capital to close their dividend gap—in addition to
having to close any additional gap resulting from share repurchases (which we conservatively
ignore). The definition of a firm’s active repurchase gap is analogous. The odd-numbered columns
present results for the dividend gap, while the even-numbered columns focus on the repurchase gap.
The structure of Panel B is otherwise similar to Panel A: we first show counterfactual gaps assuming
18 We define a firm’s counterfactual active payout gap as min{max{TPit – (max{OCFit, Industry median OCFit}+ ICFit + CRit + EEit), 0}, TPit}, where TP is total payout, OCF is operating cash flow, ICF is investment cash flow (typically a negative flow), CR is cash reduction, and EE captures the proceeds of employee-initiated equity issues. Note that if a firm is more profitable than the median firm in its industry, its counterfactual gap equals its actual gap as defined in equation (3).
22
that no firm is less profitable than the median firm in its industry (columns 1-4) or than it was in the
previous year (columns 5-8), and columns 9-12 show actual gaps based on actual profitability.
Two results stand out from Panel B in Table 8. First, columns 9 through 12 show that (actual)
repurchase gaps have a similar prevalence and dollar magnitude as (actual) dividend gaps—if
anything, in recent years repurchase gaps appear to be more common. Therefore, it is not the case
that payout gaps are only driven by dividends: half of the firms that decide to set a payout level
above their internal funds pay out via share repurchases. Their decision thus cannot be explained by
any theory that relies on the notion that firms will go as far as raising capital to avoid the well-known
costs associated with dividend cuts (see, e.g., Healy and Palepu (1988) and Michaely, Thaler, and
Womack (1995) for evidence of these costs).
Second, the vast majority of dividend-driven payout gaps cannot be explained by firms’ desire to
maintain steady dividends in the face of transitory profitability shocks. A comparison of columns 1
and 5 to column 9 reveals that as many as 78% of firms with a dividend gap would still have a gap in
the counterfactual scenario in which we assume that they are at least as profitable as the median firm
in their industry or as they were in the previous year. In fact, transitory profitability shocks appear to
play a similar role in explaining dividend and repurchase gaps, even though firms face little market
pressure to keep a steady repurchase level (Jagannathan, Stephens, and Weisbach, 2000).
The results in Table 8 suggest that transitory profitability shocks are not a major driver of active
payout gaps—and thus of firms’ decision to simultaneously pay out and raise capital. What about
transitory investment spikes? Table 9 performs an analysis analogous to Table 8, but in this case
showing counterfactual active payout gaps when we assume that no firm invests more than the
median firm in its industry or than it did in the previous year. Panel A indicates that investment
surges play a more important role than profitability shocks in explaining active payout gaps: A
comparison of columns 1 and 5 shows that 61% (=22.1/36.1) of firms with an active payout gap
would still have a gap if they had invested no more than the median firm in their industry, while 71%
would still have a gap if they had invested no more than they did in the previous year (column 3 vs.
23
column 5). The aggregate dollar magnitudes of active payout gaps in these counterfactual scenarios
represent 60% and 69%, respectively, of the actual magnitude of active gaps (columns 2 and 4 vs.
column 6). Therefore, firms that decide to continue paying out capital when their investment
increases can account for 30% to 40% of both the prevalence and aggregate dollar magnitude of
active payout gaps.
Surprisingly, Panel B in Table 9 shows little difference in the extent to which dividend and
repurchase gaps appear to be explained by investment spikes: When we assume that firms invest in
accordance to the median firm in their industry or to their own level in the previous year, the
prevalence and economic magnitude of counterfactual dividend gaps remain similarly high as that of
repurchase gaps. This result echoes our analogous finding for profitability shocks, and it suggests
that firms are as likely to continue paying dividends as they are to continue repurchasing shares when
their free cash flow goes down due to a surge in investment.
Taken together, the results in Tables 8 and 9 indicate that while profitability shortfalls play a
small role in driving active payout gaps, the role of investment spikes is more important: Up to 40%
of active gaps correspond to firms that seem to make a conscious decision to continue paying out
capital—both through dividends and repurchases—when their investment increases, even if their
decision results in simultaneous payouts and security issues. While perhaps expected in the case of
dividends, which are known to be costly cut, this is a surprising finding in the case of repurchases,
which are typically assumed to be easily adjusted in response to changes in free cash flow. And, of
course, no less surprising is our finding that approximately half of the firms that set a payout level
higher than their internal funds do so in years when they do not appear to be subject to transitory
profitability or investment shocks. In the next sections, we return to our discussion of Table 7 in
order to shed further light on the motives behind these findings.
4.2 Financing frictions and the costs of financed payouts
Regardless of whether firms choose to actively finance their dividends or their share repurchases,
there are obvious costs associated with this behavior. Key among these costs is the notion that firms
24
face a wedge between their external and internal cost of funds.19 Indeed, transaction costs associated
with raising external funds imply that external capital is more costly than internal capital for virtually
all firms (e.g., Kaplan and Zingales, 1997). In addition, for firms facing financing frictions, “the cost
of new debt and equity may differ substantially from the opportunity cost of internal finance
generated through cash flow and retained earnings” (Fazzari, Hubbard, and Petersen, 1988, p. 142).
As a result, in a ‘pecking order world’ (Myers and Majluf, 1984), firms are expected to cut their
payouts before raising external capital.
Of course, the wedge between a firm’s external and internal cost of funds is not observable. That
said, the literature often points to large firms or those with an investment-grade credit rating as being
less likely to be subject to financing frictions (e.g., Whited, 1992; Hadlock and Pierce, 2010). As a
result, we expect such firms to be more prone to actively financing their payouts, as the cost of doing
so should be lower for them.
Table 7 shows that larger firms are indeed more likely to finance both their dividends and their
share repurchases by issuing debt and equity. However, conditional on the other covariates, firms
with an investment-grade rating appear to be no more likely to finance their payouts by issuing
debt—and less likely to finance them by issuing equity—than those without such a rating. In fact, in
untabulated analyses we find that less than a quarter of firms that choose to simultaneously pay out
and raise capital have an investment-grade rating, while 47% of them are in the top public-firm size
quartile. Therefore, while larger firms are more prone to actively financing their payouts, it is still the
case that the majority of firms that engage in this behavior are unrated or high-yield and not very
large. Even in expansionary years, when much of active payout financing takes place (Figure 5), we
expect such firms to face a non-trivial wedge between their external and internal cost of funds.
19 Taxes can be an additional cost of financed payouts, particularly in the case of financed dividends: if a firm raises $1 of capital from investors and immediately pays it out as a dividend, shareholders will receive $(1 – τ), where τ is the dividend tax.
25
4.3 Using financed payouts to manage capital structure and cash holdings
The prevalence and magnitude of financed payouts implies that there must be large enough
benefits associated with this behavior to compensate for the wedge firms face between their external
and internal cost of capital—even in the case of unrated and high-yield firms. Recall from Table 3
that net debt issues are the main source of payout financing. Of course, such debt-financed payouts
result in leverage increases, which suggests that firms may use financed payouts as a tool to manage
their capital structure. Consistent with the notion that capital structure considerations are an
important driver of financed payouts, Table 7 shows that firms with high excess leverage are less
likely to finance their payouts by issuing debt and more likely to finance them by issuing equity.
Also, recall from Table 6 that highly leveraged firms are less likely to pay out capital in the first
place.
This raises a natural question: If a firm wishes to increase its leverage (say, for tax-optimization
purposes), why does it not either pay out capital or raise debt, instead of doing both simultaneously?
One key advantage of combining payouts with debt issues is that it allows firms to increase their
leverage without increasing their cash holdings (as would be the case if the firms simply raised debt)
or depleting them (as would be the case if they funded their payouts internally). Table 7 indicates that
a firm’s excess cash holdings have a strong negative association with the firm’s propensity to finance
its dividends or share repurchases by issuing debt.20
Taken together, these findings support the notion that an important benefit of simultaneous
payouts and debt issues is that they allow firms to jointly manage their capital structure and cash
holdings in a way that it is hard to replicate if firms either only raise debt or only pay out capital.
20 One driver of these excess cash holdings can be the fact that the cash is held overseas and would be subject to repatriation taxes if transferred to the U.S. to, for instance, fund payouts (Foley et al., 2007). Consistent with this interpretation, in untabulated analysis we find that when we include cash instead of excess cash in our Table 7 analysis, firms with foreign operations are more likely to finance their payouts by issuing debt.
26
4.4 Agency considerations
We now investigate whether financed payouts may also be motivated by firms’ desire to mitigate
managerial agency problems. Jensen (1986), Stulz (1990), LaPorta et al. (2000), and many others
have argued that payouts allow firms to mitigate the agency costs of free cash flow. The usual
interpretation of this literature, as captured in DeAngelo, DeAngelo, and Skinner’s (2008) review, is
that “investors pressure managers to accelerate cash payouts because if they allow internal cash to
build up unchecked, they give managers both the opportunity and the temptation to waste or
otherwise misappropriate corporate resources” (p. 118). Thus, the standard view of agency motives
has firms paying out their cash surplus and does not predict simultaneous payouts and security issues.
One notable exception is Easterbrook (1984). Indeed, DeAngelo, DeAngelo, and Skinner go on
to write that “in the limit, investors might force managers to follow the extreme payout policy
advocated by Easterbrook (1984), which is to pay such high ongoing dividends that the firm is
frequently forced to raise outside capital [to finance investments]. This outcome is, however, unlikely
because this strategy forces firms to incur higher security valuation and flotation costs, personal
taxes, etc. than they would otherwise bear” (p. 118).
Our findings indicate that Easterbrook’s “extreme” policy may not be as unusual as it is typically
assumed. Indeed, recall from Table 9 that investment spikes can account for 30% to 40% of firms
that set a payout level that they cannot fund internally. The behavior of these firms is consistent with
Easterbrook’s strategy: they set payout levels that they can fund internally when investment is
routine but that result in simultaneous payouts and issuances when they want to pursue new projects,
thus allowing equity or debt investors to decide whether the new projects should be funded.
In order to shed further light on the role that agency considerations play in the decision to rely on
external capital to finance payouts, Table 7 investigates the relationship between financed payouts
and a popular governance metric: the fraction of a firm’s shares owned by institutional investors
27
(e.g., Shleifer and Vishny, 1986; Harford, Mansi, and Maxwell, 2008).21 Our findings suggest that
higher levels of institutional ownership are associated with a lower tendency to follow Easterbrook’s
monitoring strategy that results in debt- or equity-financed payouts.22
Taken together, the evidence appears most consistent with the notion that entrenched managers
voluntarily constrain their own future empire building by relying on the capital markets to finance
new investments; see Zwiebel (1996) for a theoretical model detailing this mechanism. By contrast,
in firms with a strong institutional investor presence the board can monitor investment decisions in
‘real time;’ as a result, such firms do not need to rely on financed payouts as a (costly) governance
mechanism.
4.5 Market timing
Managers’ desire to engage in market timing could be another reason behind actively financed
payouts. Indeed, there are at least two market-timing strategies that can result in firms paying out and
issuing equity during the same year. First, managers can issue shares when their firm is overvalued
and pay dividends throughout; such a policy makes existing shareholders better off, and it results in
equity-financed dividends. Second, managers can issue equity when their firm is overvalued and
repurchase shares when the firm is undervalued; if this cycle of over- and undervaluation takes place
during the same year, it naturally results in equity-financed repurchases.
Prior evidence on managers’ ability to time the market is mixed. For instance, using monthly data
of repurchase prices, Dittmar and Field (2015) find evidence consistent with market timing ability;
by contrast, Bonaimé, Hankins, and Jordan (2014) argue that firms might be better served by
mechanically smoothing their repurchases evenly through time rather than attempting to time them.
Irrespective of managers’ actual market-timing abilities, the survey evidence in Brav et al. (2005)
21 Other popular governance measures, such as a firm’s fraction of insider ownership or the G and E indices (Gompers et al. (2003) and Bebchuk et al. (2009)), are only available for a fraction of the firms in our sample and produce noisy estimates. 22 The only exception is the case of debt-financed dividends, which are not significantly associated with institutional ownership. That said, recall from Table 6 that firms with high levels of institutional ownership pay lower dividends in the first place.
28
leaves little doubt that managers themselves do believe in their ability to successfully time the market
and thus behave accordingly.
The higher the idiosyncratic volatility of a firm’s equity, the higher are its manager’s
opportunities to exploit the firm’s misvaluation by engaging in market timing (e.g., Warusawitharana
and Whited, 2014). Consistent with this prediction, Table 7 shows that firms with higher
idiosyncratic volatility of monthly stock returns are more likely to issue and repurchase shares during
the same year. In addition, the evidence is also consistent with such firms using the proceeds of
issuing overvalued shares to finance their dividends. Taken together, these findings suggest that
market timing plays an important role in explaining the otherwise puzzling fact that 19% of the
proceeds of firm-initiated equity issues are paid out by the same firms during the same year.23
4.6 Using debt-financed repurchases to increase earnings-per-share
There is ample evidence in the literature that at least some public-firm managers are concerned
about meeting or beating analysts’ earnings forecasts (see, e.g., Graham, Harvey, and Rajgopal
(2005) for survey evidence, and Bartov, Givoly, and Hayn (2002) and Bhojraj et al. (2009) for
empirical evidence). These forecasts are typically expressed in terms of earnings-per-share (EPS).
EPS can be increased in the short-term by repurchasing shares, and Hribar, Jenkins, and Johnson
(2006) find that firms do indeed use repurchases to meet or beat EPS forecasts.
Firms can use share repurchases financed with debt (but not equity) issues to increase their EPS
without depleting their cash reserves. In such case, we expect firms for which short-termist pressures
to meet or beat analysts’ forecasts are higher, such as those in industries where stock prices are
highly sensitive to earnings news (Asker, Farre-Mensa, and Ljungqvist, 2015), to be more prone to
financing their repurchases by raising debt—but not equity. The evidence in Table 7 is consistent
23 Managers could also engage in market timing and at the same time increase their leverage by issuing debt and then repurchasing shares when the firm is undervalued. However, Table 7 shows a negative correlation between a firm’s idiosyncratic volatility and its propensity to finance its repurchases (or dividends) by issuing debt. This result is consistent with Faulkender et al.’s (2012) finding that market timing considerations have a small effect on firms’ adjustments toward their leverage targets.
29
with this prediction, which suggests that the desire to increase EPS is an important driver of debt-
financed repurchases.24
4.7 Signaling
Can financed payouts be explained by signaling motives? The large and widespread payout-
financing behavior we document is not a natural prediction of the Miller and Rock (1985) class of
signaling models. Indeed, these authors write that “because a signaling equilibrium is fully revealing,
the model here presented provides no support, of course, for a policy of sustaining dividends in the
face of earnings disasters” (p. 1045). Intuitively, in Miller and Rock’s model dividends (or, by
extension, total payouts) are only costly to the extent that firms need to cut investment to be able to
fund them, and thus investors focus on the dividend net of security issues as signal. As a result, if
investors observe that dividends are being financed in the capital markets, this effectively dilutes the
value of the dividend signal, which is why Miller and Rock see financed payouts as “uneconomic as
well as pointless.”
A more promising signaling framework to accommodate financed payouts is Bhattacharya’s
(1979) model. In this model, firms commit to a dividend level that they expect to be able to fund
using their free cash flow. Dividends provide a valuable signal because firms that suffer a negative
profitability shock and cannot fund their dividend internally have to raise costly external capital to be
able to meet their committed dividend level. Therefore, in Bhattacharya’s model financed dividends
can arise in the low-probability event that a firm is hit by an unexpected profitability shock.25
However, recall that Table 8 shows that transitory profitability shocks explain well under a fifth
of aggregate payout and aggregate dividend gaps. Therefore, the vast majority of financed payouts
we observe in the data do not conform to Bhattacharya’s notion of firms that have to finance their
24 Table 7 shows that firms in industries where stock prices are highly sensitive to earnings news are also more prone to debt-financing their dividends. This finding is consistent with the notion that in industries where stock prices are highly sensitive to earnings misses they are also more sensitive to dividend cuts. 25 The original Bhattacharya model focuses on dividends; however, one could in principle extend it to share repurchases. The same is true for Miller and Rock’s model.
30
committed payout level—or even, more narrowly, their committed dividend level—after suffering a
negative profitability shock.
To summarize, the widespread and persistent use of external funds to finance payouts in general
and dividends in particular appear inconsistent with the notion that firms finance their payouts as a
mean to signal their quality.26
5. Conclusions
This paper is the first to systematically study the extent to which industrial public firms in the
U.S. rely on the capital markets to finance their payouts. We show that 42% of payout payers initiate
a net debt or an equity issue during the same year; the vast majority of them, 36% of all payers, could
not have funded their payout without the proceeds of these issues, all else equal. The capital that
payout payers simultaneously raise in the capital markets represents 32% of aggregate payouts;
moreover, they raise an additional 9% of aggregate payouts through employee stock option exercises.
We show that financed payouts are procyclical, take the form of both dividends and share
repurchases, and are persistent in time—in fact, the gaps between firms’ payouts and their internal
funds remain virtually unchanged if we measure firms’ sources and uses of funds over four-year
intervals. Our results thus paint a very different picture from the commonly held view that payouts
are first and foremost a vehicle to return free cash flow to investors (e.g., Grullon, Michaely, and
Swaminathan, 2002; DeAngelo, DeAngelo, and Stulz, 2006).
At first glance, financed payouts may appear “uneconomic as well as pointless” (Miller and
Rock, 1985), which likely explains the little attention they have received in the literature. We show
however that they are in fact consistent with several motivations. In particular, we find most support
for the notion that firms use financed payouts to gradually adjust their capital structure without
necessarily increasing or depleting their cash reserves, and to subject managers’ investment decisions
26 In addition, Table 7 shows that large firms, which are typically thought to suffer from less information asymmetry (e.g., Chae, 2005) and thus have less need to signal their quality to investors, are more prone to engaging in payout financing than smaller firms.
31
to the scrutiny of the capital markets. We also find evidence consistent with equity-financed
repurchases being the result of firms’ attempts to engage in market timing, while the desire to
increase earnings-per-share appears to be a significant driver of debt-financed repurchases. By
contrast, it appears less likely that payout-financing behavior can be explained by signaling
considerations or, more generally, by a desire to avoid costly dividend cuts at all costs. The
pervasiveness, economic magnitude, and persistence of financed payouts suggest that their benefits
might be more important than it is often assumed—while, at the same time, their costs might be less
important.
Our findings suggest that firms’ payout and issuance decisions are intrinsically related, and thus
much can be gained by studying them jointly. For instance, how does the source of payout funding
affect investors’ reaction to payout announcements? And, conversely, how does payout financing
affect firms’ access and cost of capital? We leave the exploration of these and related questions for
future research.
32
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35
Figure 1. Aggregate payout activity. For each year from 1989 to 2012, the top graph shows the percentage of public U.S. firms that are payout payers (i.e., pay dividends or repurchase shares), pay a dividend, or repurchase shares. The bottom graph shows the aggregate total payout (the sum of dividends and share repurchases) paid by public U.S. firms each year, as well as aggregate dividends and share repurchases. Dollar magnitudes are in billions of dollars of 2012 purchasing power.
0%
20%
40%
60%
80%
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Firm counts (% of all public firms)
Payout payers Dividend payers Share repurchasers
0
100
200
300
400
500
600
700
800
900
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Dollar magnitudes (billions of 2012 $)
Total payout Dividends Share repurchases
36
Figure 2. Aggregate capital raising activity. For each year from 1989 to 2012, the top graph shows the percentage of public U.S. firms with positive net debt issues (defined as debt issues net of debt repurchases if this difference is positive, and zero otherwise), firm-initiated equity issues, and employee-initiated equity issues. The distinction between firm-initiated and employee-initiated equity issues follows McKeon (2015). The bottom graph shows the aggregate dollar amount raised via net debt issues, firm-initiated equity issues, and employee-initiated equity issues by public U.S. firms each year. Dollar magnitudes are in billions of dollars of 2012 purchasing power.
0%
20%
40%
60%
80%
100%
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Firm counts (% of all public firms)
Net debt issuers Firm-initiated equity issuers Employee-initiated equity issuers
0
50
100
150
200
250
300
350
400
450
500
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Dollar magnitudes (billions of 2012 $)
Net debt issues Firm-initiated equity issues Employee-initiated equity issues
37
Figure 3. Simultaneous payouts and firm-initiated security issues. For each year from 1989 to 2012, the solid line in the top graph plots the percentage of all public firms that pay out capital and initiate security issues during the same year; the dotted line plots the percentage of all payout payers that initiate security issues during the same year; and the dashed line plots the percentage of all firms initiating security issues that pay out capital during the same year. The bottom graph plots, for each year t, the aggregate magnitude of simultaneous payouts and firm-initiated security issues aggregated over all public U.S. firms (i.e., the sum of min{AIit, TPit} across all public firms, where AI captures the proceeds of firm-initiated security issues (net debt and equity) and TP is total payout). Dollar magnitudes are in billions of dollars of 2012 purchasing power.
0%
20%
40%
60%
80%
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Simultaneous payouts and firm-initiated issues (firm counts)
% of all public firms that pay out capital and initiate securities issues
% of all payout payers that initiate securities issues
% of all firms initiating securities issues that pay out capital
0
50
100
150
200
250
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Simultaneous payouts and firm-initiated issues (dollar magnitude in billions of 2012 $)
Aggregate sum of simultaneous payouts and firm-initiated securities issues
38
Figure 4. Can firms fund their payouts without actively raising capital? For each year from 1989 to 2012, the solid line in the top graph plots the percentage of all public firms that have an active payout gap, i.e., firms with APGit ≡ min{max{TPit – (FCFit + CRit + EEit), 0}, TPit} > $100,000; these firms need the proceeds of firm-initiated security issues to fund their payouts, all else equal. (TP is total payout; FCF is free cash flow, the sum of operating cash flow and investment cash flow; CR is cash reduction; and EE captures the proceeds of employee-initiated equity issues.) The dotted line in the top graph plots the percentage of payout payers that have an active payout gap. The bottom graph plots, for each year t, the aggregate magnitude of active payout gaps aggregated over all public U.S. firms (i.e., the sum of APGit across all public firms). Dollar magnitudes are in billions of dollars of 2012 purchasing power.
0%
20%
40%
60%
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Active payout gap (firm counts)
% of all public firms that have an active payout gap
% of all payout payers that have an active payout gap
0
50
100
150
200
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Active payout gap (dollar magnitude in billions of 2012 $)
Aggregate sum of active payout gaps
39
Figure 5. Actively financed payouts and active payout gaps over time. For each year from 1989 to 2012, the top graph plots the percentage of payout payers with actively financed payouts (top line) and active payout gaps (bottom line). The bottom graph plots the aggregate magnitude of actively financed payouts (top line) and active payouts gaps (bottom line) aggregated over all public U.S. firms. Dollar magnitudes are in billions of dollars of 2012 purchasing power.
0%
20%
40%
60%
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Actively financed payouts and active payout gaps (firm counts - % of all payers)
Actively financed payouts Active payout gaps
0
50
100
150
200
250
1989 1991 1993 1995 1997 1999 2001 2003 2005 2007 2009 2011
Actively financed payouts and active payout gaps (dollar magnitude in billions of 2012 $)
Actively financed payouts Active payout gaps
40
Table 1. Aggregate payout out and capital raising activity. Panel A shows the percentage of all public U.S. firms that pay out capital (columns 1 through 3), and the percentage of firms that raise capital (columns 4 through 8). Specifically, in each column we compute the relevant annual percentage of firms that pay out or raise capital for each year in our sample period, and then report these annual percentages averaged over four-year intervals to conserve space. Analogously, Panel B shows the aggregate annual dollar amount (in billions of dollars of 2012 purchasing power) paid out or raised by all public U.S. firms, also averaged over four-year intervals to conserve space. Financial firms and utilities are excluded throughout the paper. Panel A. Firm counts.
Annual percentage of all public firms that …
pay out capital via … raise capital via …
No. public firms
dividends or share repur-chases
dividends share repur-chases
any security
issue
any firm-initiated
issue net debt
firm-initiated equity
employee-initiated
equity Annual figures
averaged over … (1) (2) (3) (4) (5) (6) (7) (8)
1989-1992 3,626 45.6% 36.3% 24.5% 66.6% 45.7% 36.7% 13.8% 41.1%
1993-1996 4,314 42.6% 32.3% 23.5% 78.0% 51.6% 40.3% 18.1% 54.9%
1997-2000 4,537 47.0% 27.1% 35.7% 83.1% 52.8% 42.7% 16.7% 64.0%
2001-2004 3,602 45.8% 26.5% 32.7% 83.5% 37.7% 27.8% 14.3% 72.5%
2005-2008 3,109 52.9% 32.1% 40.3% 88.0% 41.5% 33.5% 11.9% 77.7%
2009-2012 2,627 57.1% 34.3% 42.7% 79.9% 37.2% 28.4% 12.1% 67.2%
all years 3,636 48.5% 31.4% 33.2% 79.8% 44.4% 34.9% 14.5% 62.9%
Panel B. Dollar magnitudes.
Aggregate annual dollar amount (in billions of 2012 dollars) that is …
paid out via … raised via …
dividends or share repur-chases
dividends share repur-chases
any security
issue
any firm-initiated
issue net debt
firm-initiated equity
employee-initiated equity
Annual figures
averaged over … (1) (2) (3) (4) (5) (6) (7) (8)
1989-1992 159.6 107.8 51.8 206.9 189.7 155.9 33.7 17.2
1993-1996 191.4 115.8 75.6 266.9 239.4 193.0 46.4 27.4
1997-2000 315.9 128.7 187.2 502.8 445.9 374.4 71.4 56.9
2001-2004 308.7 134.9 173.8 352.4 292.6 245.6 47.0 59.8
2005-2008 628.3 194.9 433.4 443.8 362.1 321.4 40.7 81.7
2009-2012 518.5 218.0 300.5 329.7 270.9 238.0 32.9 58.8
all years 353.7 150.0 203.7 350.4 300.1 254.7 45.4 50.3
41
Table 2. Simultaneous payouts and security issues. This table examines the extent to which firms simultaneously pay out and raise capital during the same fiscal year. In Panel A, we consider all security issues; specifically, SI is the sum of the proceeds of net debt issues (i.e., max{debt issued – debt repurchased, 0}), firm-initiated equity issues, and employee-initiated equity issues. In Panel B, we focus only on instances in which firms actively raise capital by considering only firm-initiated security issues; AI is thus defined as the sum of the proceeds of net debt issues and firm-initiated equity issues. On the payout side, columns 1 through 5 examine total payout (TP) without distinguishing between dividends and share repurchases; columns 6 and 7 focus on dividends only (Div); and columns 8 and 9 focus on share repurchases only (Rep denotes the dollar amount of shares repurchased).
Panel A. All security issues.
Firm counts Dollar magnitudes
% public firms
that raise & pay
out capital
% payout payers
that also raise
capital
% firms raising capital
that also pay out capital
Aggregate sum of min{SI, TP} over …
Aggregate sum of min{SI, Div} over …
Aggregate sum of min{SI, Rep} over …
Annual figures
averaged over …
aggregate sum of
TP
aggregate sum of SI
aggregate sum of
Div
aggregate sum of SI
aggregate sum of
Rep
aggregate sum of SI
(1) (2) (3) (4) (5) (6) (7) (8) (9)
1989-1992 32.9% 72.2% 49.5% 51.4% 39.7% 56.6% 29.8% 62.5% 15.6%
1993-1996 33.7% 79.2% 43.3% 41.8% 29.9% 48.4% 21.3% 49.6% 13.7%
1997-2000 39.4% 83.8% 47.4% 48.5% 30.9% 62.3% 16.2% 53.9% 20.4%
2001-2004 39.3% 85.7% 47.1% 36.3% 32.2% 50.8% 19.9% 40.4% 20.3%
2005-2008 47.6% 90.2% 54.2% 33.9% 48.5% 51.9% 23.3% 39.6% 38.9%
2009-2012 47.5% 83.1% 59.4% 31.8% 50.0% 44.3% 29.6% 40.8% 36.9%
all years 40.1% 82.4% 50.1% 40.6% 38.5% 52.4% 23.3% 47.8% 24.3%
Panel B. Only firm-initiated security issues (net debt and firm-initiated equity).
Firm counts Dollar magnitudes
% public firms that
actively raise & pay out capital
% payout payers
that also actively
raise capital
% firms actively raising capital
that also pay out capital
Aggregate sum of min{AI, TP} over …
Aggregate sum of min{AI, Div} over …
Aggregate sum of min{AI, Rep} over …
Annual figures
averaged over …
aggregate sum of
TP
aggregate sum of AI
aggregate sum of
Div
aggregate sum of AI
aggregate sum of
Rep
aggregate sum of AI
(1) (2) (3) (4) (5) (6) (7) (8) (9)
1989-1992 21.1% 46.3% 46.2% 45.7% 38.5% 50.5% 29.0% 53.2% 14.6%
1993-1996 20.6% 48.4% 40.0% 34.3% 27.4% 39.1% 19.2% 39.0% 12.0%
1997-2000 23.8% 50.7% 45.1% 38.9% 27.9% 51.1% 14.9% 41.3% 17.6%
2001-2004 15.5% 33.7% 40.9% 24.9% 26.6% 35.8% 16.8% 24.1% 14.6%
2005-2008 20.7% 39.1% 49.8% 24.1% 42.0% 36.1% 19.8% 26.7% 32.2%
2009-2012 19.8% 34.1% 52.2% 23.1% 44.3% 32.5% 26.4% 28.7% 32.2%
all years 20.2% 42.1% 45.7% 31.8% 34.5% 40.9% 21.0% 35.5% 20.5%
42
Table 3. Simultaneous payouts and security issues – the role of debt and equity. This table examines which securities firms issue when they simultaneously pay out and raise capital during the same year. Panel A focuses on net debt issues, with ND denoting the proceeds of net debt issues (i.e., max{debt issued – debt repurchased, 0}); Panel B examines firm-initiated equity issues (denoted FE); and Panel C focuses on employee-initiated equity issues (denoted EE). Columns 1 through 5 focus on total payout (TP) without distinguishing between dividends and share repurchases; columns 6 and 7 focus on dividends (Div); and columns 8 and 9 focus on share repurchases (Rep). Panel A. Net debt issues.
Firm counts Dollar magnitudes
% public firms that
issue net debt & pay out capital
% payout payers
that also issue net
debt
% firms issuing net debt that also pay out capital
Aggregate sum of min{ND, TP} over …
Aggregate sum of min{ND, Div} over …
Aggregate sum of min{ND, Rep} over …
Annual figures
averaged over …
aggregate sum of
TP
aggregate sum of
ND
aggregate sum of
Div
aggregate sum of
ND
aggregate sum of
Rep
aggregate sum of
ND
(1) (2) (3) (4) (5) (6) (7) (8) (9)
1989-1992 18.6% 40.7% 50.5% 39.5% 41.0% 44.2% 31.4% 46.8% 15.5%
1993-1996 18.3% 43.0% 45.5% 31.6% 31.6% 36.7% 22.5% 36.2% 13.8%
1997-2000 21.5% 45.7% 50.4% 38.1% 32.4% 50.7% 17.5% 40.2% 20.3%
2001-2004 13.4% 29.2% 48.1% 22.6% 28.9% 33.1% 18.7% 21.8% 15.8%
2005-2008 19.3% 36.4% 57.4% 23.7% 46.9% 35.8% 22.3% 26.3% 36.0%
2009-2012 17.9% 30.8% 61.8% 22.7% 50.4% 31.8% 30.3% 28.4% 36.2%
all years 18.2% 37.6% 52.3% 29.7% 38.5% 38.7% 23.8% 33.3% 22.9%
Panel B. Firm-initiated equity issues.
Firm counts Dollar magnitudes
% public firms that issue
firm-init. equity & pay out capital
% payout payers
that also issue firm-
initiated equity
% firms issuing firm-
initiated equity
that also pay out capital
Aggregate sum of min{FE, TP} over …
Aggregate sum of min{FE, Div} over …
Aggregate sum of min{FE, Rep} over …
Annual figures
averaged over …
aggregate sum of
TP
aggregate sum of FE
aggregate sum of
Div
aggregate sum of FE
aggregate sum of
Rep
aggregate sum of FE
(1) (2) (3) (4) (5) (6) (7) (8) (9)
1989-1992 4.3% 9.4% 30.7% 8.2% 40.6% 8.7% 28.6% 10.0% 18.7%
1993-1996 4.2% 9.8% 22.9% 3.6% 14.2% 3.9% 9.7% 3.4% 5.9%
1997-2000 4.2% 9.0% 25.4% 2.2% 10.1% 2.5% 4.2% 2.3% 6.8%
2001-2004 3.3% 7.3% 23.4% 3.1% 18.2% 3.3% 8.7% 3.2% 10.6%
2005-2008 2.6% 4.9% 22.1% 1.3% 18.2% 2.7% 12.1% 0.6% 6.3%
2009-2012 2.9% 5.2% 24.0% 0.7% 11.0% 1.2% 8.7% 0.4% 5.2%
all years 3.6% 7.6% 24.7% 3.2% 18.7% 3.7% 12.0% 3.3% 9.0%
43
Panel C. Employee-initiated equity issues.
Firm counts Dollar magnitudes
% public firms that
issue emp.-init. equity & pay out capital
% payout payers that also issue employee- initiated equity
% firms issuing
employee- initiated equity
that also pay out capital
Aggregate sum of min{EE, TP} over …
Aggregate sum of min{EE, Div} over …
Aggregate sum of min{EE, Rep} over …
Annual figures
averaged over …
aggregate sum of
TP
aggregate sum of
EE
aggregate sum of
Div
aggregate sum of
EE
aggregate sum of
Rep
aggregate sum of
EE
(1) (2) (3) (4) (5) (6) (7) (8) (9)
1989-1992 22.9% 50.4% 56.1% 9.1% 83.5% 11.7% 74.1% 16.5% 48.2%
1993-1996 25.8% 60.7% 47.2% 11.0% 76.6% 15.4% 65.6% 16.5% 43.6%
1997-2000 31.6% 67.4% 49.5% 12.1% 68.1% 18.7% 43.2% 16.8% 56.1%
2001-2004 35.7% 77.9% 49.3% 13.9% 72.7% 20.6% 46.5% 19.2% 56.2%
2005-2008 43.8% 83.0% 56.7% 11.1% 85.9% 23.2% 55.4% 15.0% 79.7%
2009-2012 42.3% 74.1% 62.9% 9.8% 85.9% 17.3% 64.3% 15.2% 74.6%
all years 33.7% 68.9% 53.6% 11.2% 78.8% 17.8% 58.2% 16.6% 59.7%
44
Table 4. Can firms fund their payouts without raising capital? This table examines whether firms with simultaneous payouts and security issues could have funded their payouts without the proceeds of these issues, all else equal. Columns 1 and 2 show the prevalence of firms with a payout gap, i.e., firms with PGit ≡ min{max{TPit – (FCFit + CRit), 0}, TPit} > $100,000 (denoted PGit >> 0), while columns 3 and 4 show the dollar magnitude of these gaps relative to total payouts. Columns 5 and 6 show the prevalence of firms with an active payout gap, i.e., firms with APGit ≡ min{max{TPit – (FCFit + CRit + EEit), 0}, TPit} >> 0, while columns 7 and 8 show the dollar magnitude of these active gaps relative to total payouts. (TP is total payout; FCF is free cash flow, the sum of operating cash flow and investment cash flow; CR is cash reduction; and EE captures the proceeds of employee-initiated equity issues.) In Panel A, PG and APG are defined annually and, as in Tables 1 through 3, we report annual counts or dollar magnitudes averaged over four years to conserve space. By contrast, in Panel B all sources and uses of funds are aggregated over four-year intervals, and we define payout gaps as follows:
3 3 3
3
0 0 0
min max ,0 ,tit it j it j it j it j
j j j
PG TP FCF CR TP
(and analogously for active payout gaps).
Payout gaps (PG) (i.e., firms that cannot fund their payout
without raising capital)
Active payout gaps (APG) (i.e., firms that cannot fund their payout
without actively raising capital)
Firm counts Dollar magnitudes Firm counts Dollar magnitudes
% of public
firms with a payout
gap
% of payout payers with a payout
gap
Average of the ratio
PG /TP across all firms with
a gap
Aggregate sum of PG
over aggregate sum of TP paid by all
public firms
% of public
firms with an active payout
gap
% of payout payers with an active payout
gap
Average of the ratio
APG /TP across all firms with an active
gap
Aggregate sum of APG
over aggregate sum of TP paid by all
public firms
(1) (2) (3) (4) (5) (6) (7) (8)
Panel A. Gap defined annually (we report annual figures averaged over four-year intervals)
1989-1992 20.3% 44.6% 80.7% 41.0% 18.3% 40.1% 83.5% 38.0%
1993-1996 21.4% 50.4% 81.3% 32.7% 18.6% 43.7% 85.0% 29.8%
1997-2000 26.1% 55.6% 80.0% 40.5% 21.9% 46.5% 84.3% 35.6%
2001-2004 17.9% 39.1% 71.1% 22.2% 12.2% 26.7% 81.2% 18.2%
2005-2008 25.9% 49.0% 62.3% 24.6% 17.7% 33.5% 74.1% 19.6%
2009-2012 21.6% 37.2% 61.5% 19.6% 15.1% 25.9% 73.6% 15.3%
average of all years 22.2% 46.0% 72.8% 30.1% 17.3% 36.1% 80.3% 26.1%
Panel B. Gap defined over four-year intervals (sources and uses of capital aggregated over four years)
1989-1992 36.2% 52.6% 78.3% 41.0% 32.8% 47.6% 80.0% 36.3%
1993-1996 40.8% 62.3% 82.4% 33.2% 36.6% 55.9% 83.4% 28.0%
1997-2000 52.7% 71.6% 82.4% 43.2% 46.4% 63.0% 83.9% 37.0%
2001-2004 33.0% 47.4% 77.4% 19.9% 25.1% 36.1% 79.6% 15.1%
2005-2008 46.3% 62.1% 66.0% 28.2% 36.6% 49.1% 68.6% 20.6%
2009-2012 35.7% 47.4% 64.3% 20.5% 27.5% 36.5% 71.7% 14.5%
average of all four-year intervals 40.8% 57.2% 75.1% 31.0% 34.2% 48.0% 77.9% 25.3%
45
Table 5. Prevalence and aggregate magnitude of financed payouts: Summary table. This table succinctly summarizes our findings regarding the extent to which firms that simultaneously raise and pay out capital could have funded their payouts by relying only on their internal funds, all else equal. To do so, the table combines the results of Table 2 (columns 2 and 4 in Panels A and B) and Table 4 (columns 2, 4, 6, and 8 in Panel A). The first and second rows differ in their treatment of the proceeds of employee-initiated equity issues (typically via stock option exercises): In the first row, we consider these proceeds as external capital and thus we do not add them to firms’ internal funds; by contrast, in the second row the proceeds of employee-initiated equity issues are added to firms’ internal funds. The table shows annual figures averaged over all years in our sample period.
Firm counts Dollar magnitudes
% of payers that simultaneously raise external
capital
% of payers whose internal funds are not
enough to fund payouts
% of aggregate total payouts financed via
simultaneously raised external
capital
% of aggregate total payouts that cannot be funded
using internal funds
(1) (2) (3) (4)
Employee-initiated equity issues considered external capital 82.4% 46.0% 40.6% 30.1%
Employee-initiated equity issues added to internal funds 42.1% 36.1% 31.8% 26.1%
46
Table 6. Characteristics of payout payers. This table examines the characteristics of firms that pay dividends and repurchase shares. The table shows the results of a tobit model in which the dependent variable is the capital a firm pays out in the form of dividends (columns 1 and 2) or share repurchases (columns 3 and 4), scaled by the beginning-of-year market value of the firm’s equity (columns 1 and 3) or beginning-of-year assets (columns 2 and 4). Control variables are measured as of the beginning of the fiscal year, except for those that are flows (operating cash flow and investment, which are scaled by beginning-of-year assets). All regressions include year fixed effects. Robust standard errors clustered at the firm level are shown in italics beneath the coefficient estimates. To maximize the number of informative digits shown, all coefficients and standard errors are multiplied by 100. We use ***, **, and * to denote significance at the 1%, 5%, and 10% level (two-sided) respectively.
Dividends Repurchases
dividends / mkt. val.
equity
dividends / assets
repurchases / mkt. val.
equity
repurchases / assets Dependent variable:
(1) (2) (3) (4)
Operating cash flow 2.547*** 3.879*** 7.300*** 11.367*** 0.262 0.318 0.347 0.511
Investment (capex + acquisitions) -1.085*** -1.201*** -4.238*** -5.763*** 0.166 0.191 0.275 0.375
Market-to-book -0.233*** 0.140*** -0.253*** 0.418*** 0.028 0.029 0.029 0.043
Size 0.472*** 0.416*** 0.393*** 0.415*** 0.029 0.031 0.037 0.050
Investment-grade credit rating 0.989*** 1.167*** 0.822*** 1.215*** 0.098 0.110 0.155 0.212
Excess leverage -1.977*** -2.776*** -2.448*** -3.879*** 0.194 0.214 0.252 0.324
Excess cash -0.233 -0.510** 2.436*** 2.881*** 0.209 0.257 0.265 0.367
Share of institutional investors -1.471*** -1.461*** 2.015*** 3.236*** 0.171 0.187 0.212 0.286
Idiosyncratic volatility -17.460*** -20.828*** -15.510*** -20.491*** 0.782 0.933 0.774 0.978
Sensitivity of stock prices to earnings news 0.401*** 0.478*** -0.023 -0.047 0.053 0.062 0.070 0.093
F test: all coefficients = 0 103.7*** 70.5*** 115.0*** 94.3*** No. observations 80,162 80,162 80,162 80,162 No. firms 9,741 9,741 9,741 9,741
47
Table 7. Characteristics of firms that actively finance their payouts. This table examines the characteristics of firms that actively finance their payouts through net debt or firm-initiated equity issues. The table reports the results of estimating a generalized linear model, using the logit link function and the binomial distribution family, in which the dependent variable is the fraction of dividends or repurchases that is financed through net debt issues (columns 1 and 2) or firm-initiated equity issues (columns 3 and 4). (Only firms that pay dividends (columns 1 and 3) or repurchase shares (columns 2 and 4) are included in the analysis.) Specifically, the dependent variable in columns 1 and 2 is min{Net debt issuesit, Pit}/Pit, where P denotes dividends (column 1) or share repurchases (column 2); analogously, the dependent variable in columns 3 and 4 is min{Firm-initiated equity issuesit, Pit}/Pit. For ease of interpretation, the table reports conditional marginal effects evaluated at the means of the independent variables (the independent variables are the same as in Table 6). All regressions include year fixed effects. Robust standard errors clustered at the firm level are shown in italics beneath the coefficient estimates. We use ***, **, and * to denote significance at the 1%, 5%, and 10% level (two-sided) respectively.
Debt-financed payouts Equity-financed payouts
% dividends financed by
debt
% repurchases financed by
debt
% dividends financed by
equity
% repurchases financed by
equity
Dependent variable:
(1) (2) (3) (4)
Operating cash flow -1.641*** -1.187*** -0.215*** -0.139*** 0.089 0.050 0.012 0.009
Investment (capex + acquisitions) 2.706*** 2.245*** 0.181*** 0.133*** 0.101 0.069 0.008 0.007
Market-to-book -0.048*** -0.046*** 0.003*** 0.002*** 0.007 0.004 0.001 0.001
Size 0.029*** 0.030*** 0.005*** 0.002** 0.004 0.003 0.001 0.001
Investment-grade credit rating -0.004 -0.002 -0.011*** -0.011*** 0.012 0.011 0.004 0.004
Excess leverage -0.105*** -0.086*** 0.095*** 0.052*** 0.031 0.026 0.008 0.006
Excess cash -0.801*** -0.706*** -0.023** -0.035*** 0.048 0.032 0.010 0.006
Share of institutional investors 0.032 -0.050*** -0.026*** -0.024*** 0.023 0.019 0.008 0.006
Idiosyncratic volatility -0.701*** -0.618*** 0.335*** 0.186*** 0.113 0.083 0.024 0.016
Sensitivity of stock prices to earnings news 0.039*** 0.051*** -0.012*** -0.007*** 0.007 0.006 0.003 0.003
χ2 test: all coefficients = 0 1,409.0*** 2,035.7*** 1,615.4*** 1,662.3*** No. observations 25,147 26,247 25,147 26,247 No. firms 3,377 5,380 3,377 5,380
48
Table 8. The role of negative profitability shocks in explaining active payout gaps. Panel A. Total payout. This panel examines the extent to which the active payout gaps identified in Table 4 are the result of negative profitability shocks. Specifically, the panel replicates the analysis shown in columns 6 and 8 of Table 4, Panel A but using two modified definitions of active payout gap. In columns 1 and 2, we assume that no firm is less profitable than the median firm in its industry, thus defining a firm’s counterfactual active payout gap as follows: IndOcf
itAPG ≡
min{max{TPit – (max{OCFit, Industry median OCFit}+ ICFit + CRit + EEit), 0}, TPit}, where Industry median OCFit is the median ratio of operating cash flow/lagged assets in the firm’s industry-year multiplied by the firm’s lagged assets. (TP is total payout; ICF is investment cash flow; CR is cash reduction; and EE captures the proceeds of employee-initiated equity issues. Industry is defined at the 2-digit SIC level.) Analogously, in columns 3 and 4 we assume that no firm is less profitable than it was in the previous year; the counterfactual active payout gap is then:
LagOcfitAPG ≡ min{max{TPit – (max{OCFit, OCFit-1} + ICFit + CRit + EEit), 0}, TPit}. For ease of comparison,
columns 5 and 6 reproduce the actual active payout gap results from columns 6 and 8 of Table 4, Panel A, which are based on a firm’s actual operating cash flow.
Active payout gaps
We assume that no firm is less profitable than ...
Actual level of profitability ... the median firm in its industry
... that same firm was in the previous year
% of payout payers with a counterfactual active payout
gap
Aggregate sum of
APGIndOcf over
aggregate sum of TP
% of payout payers with a counterfactual active payout
gap
Aggregate sum of
APGLagOcf over
aggregate sum of TP
% of payout
payers with an active
payout gap
Aggregate sum of APG
over aggregate sum of TP Annual
figures averaged over … (1) (2) (3) (4) (5) (6)
1989-1992 31.8% 34.4% 31.3% 30.9% 40.1% 38.0%
1993-1996 35.5% 26.8% 35.1% 25.2% 43.7% 29.8%
1997-2000 38.7% 33.6% 38.3% 30.4% 46.5% 35.6%
2001-2004 19.2% 16.7% 19.8% 15.8% 26.7% 18.2%
2005-2008 26.3% 17.8% 27.1% 17.0% 33.5% 19.6%
2009-2012 19.9% 13.9% 20.0% 12.4% 25.9% 15.3%
all years 28.6% 23.9% 28.6% 22.0% 36.1% 26.1%
counterfactual over actual
79.2% 91.5% 79.3% 84.2%
49
Panel B. Breaking down dividends and share repurchases. This panel breaks down the role that dividends and share repurchases play in explaining the actual and counterfactual active payout gaps identified in Panel A. To do this, we define a firm’s active dividend gap analogously as its active payout gap, ADivGit ≡ min{max{Divit – (FCFit + CRit + EEit), 0}, Divit}, while a firm’s active repurchase gap is ARepGit ≡ min{max{Repit – (FCFit + CRit + EEit), 0}, Repit}. (Div and Rep are the dollar amount paid out via dividends and share repurchases; FCF is free cash flow; CR is cash reduction; and EE captures the proceeds of employee-initiated equity issues.) The panel follows a similar structure as Panel A. Specifically, columns 1 through 4 show counterfactual active dividend and repurchase gaps assuming that no firm is less profitable than the median firm in its industry (e.g., IndOcf
itADivG ≡ min{max{Divit – (max{OCFit, Industry median OCFit} + ICFit + CRit + EEit), 0}, Divit}). (Columns 1 and 2 show the
percentage of all payout payers with counterfactual dividend and repurchase gaps, while columns 3 and 4 show the aggregate sum of counterfactual dividend and repurchase gaps over the aggregate sum of total payouts (TP).) In columns 5 through 8, we define counterfactual active dividend and repurchase gaps assuming that no firm is less profitable than it was in the previous year. Columns 9 through 12 show the actual active dividend and repurchase gaps, ADivGit and ARepGit, which are based on a firm’s actual operating cash flow.
Active dividend and repurchase gaps
We assume that no firm is less profitable than ... Actual level of profitability
... the median firm in its industry ... that same firm was in the previous year
% of payout
payers with a counter-
factual active
dividend gap
% of payout
payers with a counter-
factual active
repurchase gap
Aggregate sum of
ADivGIndOcf
over aggregate sum of TP
Aggregate sum of
ARepGIndOcf
over aggregate sum of TP
% of payout
payers with a counter-
factual active
dividend gap
% of payout
payers with a counter-
factual active
repurchase gap
Aggregate sum of
ADivGLagOcf
over aggregate sum of TP
Aggregate sum of
ARepGLagOcf
over aggregate sum of TP
% of payout
payers with an active dividend
gap
% of payout
payers with an active
repurchase gap
Aggregate sum of
ADivG over aggregate sum of TP
Aggregate sum of
ARepG over aggregate sum of TP Annual
figures averaged over … (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)
1989-1992 22.6% 14.1% 19.8% 9.5% 22.5% 13.7% 18.0% 8.0% 28.7% 17.9% 22.5% 10.2%
1993-1996 24.2% 15.6% 13.7% 8.1% 24.3% 14.8% 13.6% 7.6% 30.1% 19.3% 16.1% 8.8%
1997-2000 19.1% 26.3% 12.1% 15.9% 18.9% 25.8% 10.9% 14.2% 23.3% 31.5% 13.2% 16.9%
2001-2004 9.1% 12.5% 6.9% 6.6% 9.3% 12.8% 6.6% 6.2% 13.0% 16.9% 7.5% 7.3%
2005-2008 11.3% 16.9% 3.8% 9.8% 12.0% 17.2% 3.8% 9.2% 15.1% 21.3% 4.3% 10.8%
2009-2012 8.7% 12.4% 4.0% 5.5% 8.8% 12.6% 3.7% 5.0% 11.6% 16.1% 4.4% 6.1%
all years 15.8% 16.3% 10.1% 9.2% 16.0% 16.1% 9.4% 8.4% 20.3% 20.5% 11.4% 10.0%
counterfactual over actual
77.8% 79.5% 88.6% 92.3% 78.5% 78.7% 83.0% 83.6%
50
Table 9. The role of investment spikes in explaining active payout gaps. Panel A. Total payout. This panel examines the extent to which the active payout gaps identified in Table 4 are the result of firms with unusually high levels of investment. Like Panel A in Table 8, the panel replicates the analysis shown in columns 6 and 8 of Table 4, Panel A but using two modified definitions of active payout gap. In columns 1 and 2, we assume that no firm invests more than the median firm in its industry, thus defining a firm’s counterfactual active payout gap as follows: IndInv
itAPG ≡ min{max{TPit – (OCFit + max{ICFit, Industry median ICFit}+ CRit + EEit), 0}, TPit},
where in Industry median ICFit we substitute CAPEX and acquisitions (both of which enter the definition of investment cash flow, ICF, with a negative sign) by the median ratio of (CAPEX + acquisitions)/lagged assets in the firm’s industry-year multiplied by the firm’s lagged assets. (TP is total payout; OCF is operating cash flow; CR is cash reduction; and EE captures the proceeds of employee-initiated equity issues. Industry is defined at the 2-digit SIC level.) Analogously, in columns 3 and 4 we assume that no firm invests more than it did in the previous year; the counterfactual active payout gap is then: LagInv
itAPG ≡ min{max{TPit – (OCFit + max{ICFit, Lagged ICFit}+ CRit
+ EEit), 0}, TPit}, where in Lagged ICFit we substitute CAPEX and acquisitions by their lagged values. For ease of comparison, columns 5 and 6 reproduce the actual active payout gap results from columns 6 and 8 of Table 4, Panel A, which are based on a firm’s actual level of investment.
Active payout gaps
We assume that no firm invests more than ...
Actual level of investment ... the median firm in its industry
... that same firm did in the previous year
% of payout payers with a counterfactual active payout
gap
Aggregate sum of
APGIndInv over
aggregate sum of TP
% of payout payers with a counterfactual active payout
gap
Aggregate sum of
APGIndInv over
aggregate sum of TP
% of payout
payers with an active
payout gap
Aggregate sum of APG
over aggregate sum of TP Annual
figures averaged over … (1) (2) (3) (4) (5) (6)
1989-1992 24.8% 21.9% 30.6% 28.4% 40.1% 38.0%
1993-1996 28.5% 19.4% 31.0% 20.4% 43.7% 29.8%
1997-2000 30.8% 22.2% 34.7% 24.6% 46.5% 35.6%
2001-2004 14.8% 9.6% 17.8% 11.8% 26.7% 18.2%
2005-2008 19.5% 12.4% 22.6% 13.5% 33.5% 19.6%
2009-2012 14.2% 7.9% 16.5% 9.5% 25.9% 15.3%
all years 22.1% 15.5% 25.5% 18.0% 36.1% 26.1%
counterfactual over actual
61.3% 59.6% 70.8% 69.2%
51
Panel B. Breaking down dividends and share repurchases. This panel breaks down the role that dividends and share repurchases play in explaining the actual and counterfactual active payout gaps identified in Panel A. To do this, we define a firm’s active dividend and repurchase gaps as in Panel B of Table 8: ADivGit ≡ min{max{Divit – (FCFit + CRit + EEit), 0}, Divit} and ARepGit ≡ min{max{Repit – (FCFit + CRit + EEit), 0}, Repit}. (Div and Rep are the dollar amount paid out via dividends and share repurchases; FCF is free cash flow; CR is cash reduction; and EE captures the proceeds of employee-initiated equity issues.) The panel follows a similar structure as Panel A. Specifically, columns 1 through 4 show counterfactual active dividend and repurchase gaps assuming that no firm invests more than the median firm in its industry (e.g.,
IndInvitADivG ≡ min{max{Divit – (OCFit + max{ICFit, Industry median ICFit}+ CRit + EEit), 0}, Divit}). (Columns 1 and 2 show the percentage of all payout
payers with counterfactual dividend and repurchase gaps, while columns 3 and 4 show the aggregate sum of counterfactual dividend and repurchase gaps over the aggregate sum of total payouts (TP).) In columns 5 through 8, we define counterfactual active dividend and repurchase gaps assuming that no firm invests more than it did in the previous year. Columns 9 through 12 show the actual active dividend and repurchase gaps, ADivGit and ARepGit, which are based on a firm’s actual level of investment.
Active dividend and repurchase gaps
We assume that no firm invests more than ... Actual level of investment
... the median firm in its industry ... that same firm did in the previous year
% of payout
payers with a counter-
factual active
dividend gap
% of payout
payers with a counter-
factual active
repurchase gap
Aggregate sum of
ADivGIndInv
over aggregate sum of TP
Aggregate sum of
ARepGIndInv
over aggregate sum of TP
% of payout
payers with a counter-
factual active
dividend gap
% of payout
payers with a counter-
factual active
repurchase gap
Aggregate sum of
ADivGLagInv
over aggregate sum of TP
Aggregate sum of
ARepGLagInv
over aggregate sum of TP
% of payout
payers with an active dividend
gap
% of payout
payers with an active
repurchase gap
Aggregate sum of
ADivG over aggregate sum of TP
Aggregate sum of
ARepG over aggregate sum of TP Annual
figures averaged over … (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12)
1989-1992 16.3% 10.9% 12.0% 5.9% 13.7% 13.3% 8.0% 7.0% 28.7% 17.9% 22.5% 10.2%
1993-1996 18.2% 12.1% 10.3% 6.0% 14.8% 13.3% 7.6% 6.4% 30.1% 19.3% 16.1% 8.8%
1997-2000 13.7% 20.2% 8.0% 10.2% 25.8% 22.9% 14.2% 11.6% 23.3% 31.5% 13.2% 16.9%
2001-2004 6.3% 9.3% 3.9% 4.1% 12.8% 10.9% 6.2% 4.4% 13.0% 16.9% 7.5% 7.3%
2005-2008 7.5% 12.5% 2.5% 7.3% 17.2% 14.4% 9.2% 7.7% 15.1% 21.3% 4.3% 10.8%
2009-2012 5.7% 8.2% 1.9% 3.0% 12.6% 9.7% 5.0% 3.6% 11.6% 16.1% 4.4% 6.1%
all years 11.3% 12.2% 6.4% 6.1% 16.1% 14.1% 8.4% 6.8% 20.3% 20.5% 11.4% 10.0%
counterfactual over actual
55.6% 59.7% 56.6% 60.7% 79.4% 68.7% 73.7% 67.6%